Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive
The aim of this work is to demonstrate the application of kaolin as a pozzolanic additive of stabilized peat. In addition to kaolin, Portland composite cement, calcium chloride and silica sand were used as the materials to stabilize the peat. To achieve such aim, test specimens of both untreated and...
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my.uniten.dspace-301012023-12-29T15:44:30Z Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive Wong L.S. Hashim R. Ali F. 55504782500 8640798800 14420764600 Kaolin Peat Portland composite cement Silica sand Calcium chloride Compressive strength Kaolin Scanning electron microscopy Silica sand Silicate minerals Soil cement Testing Additives Calcium Calcium silicate Hydrates Kaolin Peat Scanning electron microscopy Silica Silica sand Silicate minerals Soil cement Calcium silicate hydrate Composite cements Deep mixing method Energy dispersive x-ray Filler effects Initial pressure Partial replacement Permeability test Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Situ conditions Test specimens Unconfined compressive strength Calcium silicate hydrate Composite cements Energy dispersive x-ray Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Unconfined compressive strength Peat Compressive strength The aim of this work is to demonstrate the application of kaolin as a pozzolanic additive of stabilized peat. In addition to kaolin, Portland composite cement, calcium chloride and silica sand were used as the materials to stabilize the peat. To achieve such aim, test specimens of both untreated and stabilized peats were tested in laboratory in order to evaluate its unconfined compressive strength and rate of permeability. Each test specimen was prepared in such a way that it has to simulate the in situ condition of deep peat stabilization by deep mixing method. It was found that test specimen with 10% partial replacement with kaolin has the highest unconfined compressive strength that exceeds the minimal required unconfined compressive strength of 345 kPa. The test specimen was subjected to 100 kPa initial pressure and cured in water for 7 days. The unconfined compressive strength of the test specimen was discovered to be 33.7 times greater than that of untreated peat specimen. In laboratory permeability tests, the rate of permeability of untreated peat was found to be 6.43 � 106 times higher than that of stabilized peat. Samples of the test specimens were examined using Energy Dispersive X-ray (EDX) and Scanning Electron Microscope (SEM). High peaks of calcium element from the EDX results of stabilized peat specimens imply that the specimens have high calcium composition as a result of cement hydrolysis, and addition of kaolin is believed to induce secondary pozzolanic reaction in which the cementation crystals of mainly calcium silicate hydrate were formed to bind the soil. Based on the observation of SEM of the stabilized peat specimens, it was found that there was a significant pore refinement in the test specimens as a result of the filler effect of silica sand and pozzolanic activity of kaolin. � 2012 Elsevier Ltd. All rights reserved. Final 2023-12-29T07:44:30Z 2023-12-29T07:44:30Z 2013 Article 10.1016/j.conbuildmat.2012.11.065 2-s2.0-84871784599 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84871784599&doi=10.1016%2fj.conbuildmat.2012.11.065&partnerID=40&md5=459f578c99dadf7dca625ec57d78bb2a https://irepository.uniten.edu.my/handle/123456789/30101 40 783 792 All Open Access; Green Open Access Scopus |
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Kaolin Peat Portland composite cement Silica sand Calcium chloride Compressive strength Kaolin Scanning electron microscopy Silica sand Silicate minerals Soil cement Testing Additives Calcium Calcium silicate Hydrates Kaolin Peat Scanning electron microscopy Silica Silica sand Silicate minerals Soil cement Calcium silicate hydrate Composite cements Deep mixing method Energy dispersive x-ray Filler effects Initial pressure Partial replacement Permeability test Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Situ conditions Test specimens Unconfined compressive strength Calcium silicate hydrate Composite cements Energy dispersive x-ray Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Unconfined compressive strength Peat Compressive strength |
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Kaolin Peat Portland composite cement Silica sand Calcium chloride Compressive strength Kaolin Scanning electron microscopy Silica sand Silicate minerals Soil cement Testing Additives Calcium Calcium silicate Hydrates Kaolin Peat Scanning electron microscopy Silica Silica sand Silicate minerals Soil cement Calcium silicate hydrate Composite cements Deep mixing method Energy dispersive x-ray Filler effects Initial pressure Partial replacement Permeability test Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Situ conditions Test specimens Unconfined compressive strength Calcium silicate hydrate Composite cements Energy dispersive x-ray Pozzolanic activity Pozzolanic additives Reduced permeabilities Secondary pozzolanic reaction Unconfined compressive strength Peat Compressive strength Wong L.S. Hashim R. Ali F. Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
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The aim of this work is to demonstrate the application of kaolin as a pozzolanic additive of stabilized peat. In addition to kaolin, Portland composite cement, calcium chloride and silica sand were used as the materials to stabilize the peat. To achieve such aim, test specimens of both untreated and stabilized peats were tested in laboratory in order to evaluate its unconfined compressive strength and rate of permeability. Each test specimen was prepared in such a way that it has to simulate the in situ condition of deep peat stabilization by deep mixing method. It was found that test specimen with 10% partial replacement with kaolin has the highest unconfined compressive strength that exceeds the minimal required unconfined compressive strength of 345 kPa. The test specimen was subjected to 100 kPa initial pressure and cured in water for 7 days. The unconfined compressive strength of the test specimen was discovered to be 33.7 times greater than that of untreated peat specimen. In laboratory permeability tests, the rate of permeability of untreated peat was found to be 6.43 � 106 times higher than that of stabilized peat. Samples of the test specimens were examined using Energy Dispersive X-ray (EDX) and Scanning Electron Microscope (SEM). High peaks of calcium element from the EDX results of stabilized peat specimens imply that the specimens have high calcium composition as a result of cement hydrolysis, and addition of kaolin is believed to induce secondary pozzolanic reaction in which the cementation crystals of mainly calcium silicate hydrate were formed to bind the soil. Based on the observation of SEM of the stabilized peat specimens, it was found that there was a significant pore refinement in the test specimens as a result of the filler effect of silica sand and pozzolanic activity of kaolin. � 2012 Elsevier Ltd. All rights reserved. |
| author2 |
55504782500 |
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55504782500 Wong L.S. Hashim R. Ali F. |
| format |
Article |
| author |
Wong L.S. Hashim R. Ali F. |
| author_sort |
Wong L.S. |
| title |
Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
| title_short |
Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
| title_full |
Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
| title_fullStr |
Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
| title_full_unstemmed |
Improved strength and reduced permeability of stabilized peat: Focus on application of kaolin as a pozzolanic additive |
| title_sort |
improved strength and reduced permeability of stabilized peat: focus on application of kaolin as a pozzolanic additive |
| publishDate |
2023 |
| _version_ |
1806424152832212992 |
| score |
13.211869 |